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Control of the mid-summer net community production and nitrogen fixation in the central Baltic Sea: An approach based on pCO 2 measurements on a cargo ship

Automated measurements of the surface CO 2 partial pressure, pCO 2 , were performed since 2003 on a cargo ship along a transect between Helsinki in the Gulf of Finland and Lübeck/Gdynia in the southwest of the Baltic Sea. The temporal and spatial resolution of the measurements amounted to 2–4 days a...

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Published in:	Journal of marine systems 2014, Vol.136, p.1
Main Authors:	Schneider, Bernd, Gustafsson, Erik, Sadkowiak, Bernd
Format:	Article
Language:	English
Subjects:	Baltic Sea CO2 partial pressure Nitrogen fixation Phosphorus Solar radiation
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creator	Schneider, Bernd Gustafsson, Erik Sadkowiak, Bernd
description	Automated measurements of the surface CO 2 partial pressure, pCO 2 , were performed since 2003 on a cargo ship along a transect between Helsinki in the Gulf of Finland and Lübeck/Gdynia in the southwest of the Baltic Sea. The temporal and spatial resolution of the measurements amounted to 2–4 days and about 2 nautical miles, respectively. Based on temperature and salinity records and on the mean alkalinity, the total CO 2 concentrations, C T , were calculated from the mean pCO 2 in the northeastern Gotland Sea. The C T data were used to establish a CO 2 mass balance for the period from mid-June to the beginning of August in 2005, 2008, 2009 and 2011. Taking into account the air–sea CO 2 gas exchange, the mass balance yielded the net organic matter (C org ) production which is fuelled by nitrogen fixation at this time of the year. Several production events were detected with rates up to 8 μmol-C L − 1 d − 1 . The production rates were not related to temperature, but showed a distinct correlation with the rate of the temperature increase. This led to the conclusion that the exposure of nitrogen fixing cyanobacteria to irradiance is the dominating control for the C org production. Therefore, we suggest using the ratio of irradiance to the mixed layer depth as a variable for the parameterization of nitrogen fixation in biogeochemical models. The C org production and thus the nitrogen fixation rates remained almost constant as long as continuous rising temperatures indicated favorable irradiation conditions. A limitation of the rates by phosphate or any other factor could not be detected. Based on the C/N ratio of particulate organic matter during a cyanobacteria bloom, the C org production was used to estimate the mid-summer nitrogen fixation. The values varied from 102 mmol m − 2 to 214 mmol m − 2 (mean: 138 mmol m − 2 ) for the different years and did not show any correlation with the phosphate excess after the spring nitrate depletion.
doi_str_mv	10.1016/j.jmarsys.2014.03.007
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The temporal and spatial resolution of the measurements amounted to 2–4 days and about 2 nautical miles, respectively. Based on temperature and salinity records and on the mean alkalinity, the total CO 2 concentrations, C T , were calculated from the mean pCO 2 in the northeastern Gotland Sea. The C T data were used to establish a CO 2 mass balance for the period from mid-June to the beginning of August in 2005, 2008, 2009 and 2011. Taking into account the air–sea CO 2 gas exchange, the mass balance yielded the net organic matter (C org ) production which is fuelled by nitrogen fixation at this time of the year. Several production events were detected with rates up to 8 μmol-C L − 1 d − 1 . The production rates were not related to temperature, but showed a distinct correlation with the rate of the temperature increase. This led to the conclusion that the exposure of nitrogen fixing cyanobacteria to irradiance is the dominating control for the C org production. Therefore, we suggest using the ratio of irradiance to the mixed layer depth as a variable for the parameterization of nitrogen fixation in biogeochemical models. The C org production and thus the nitrogen fixation rates remained almost constant as long as continuous rising temperatures indicated favorable irradiation conditions. A limitation of the rates by phosphate or any other factor could not be detected. Based on the C/N ratio of particulate organic matter during a cyanobacteria bloom, the C org production was used to estimate the mid-summer nitrogen fixation. 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Therefore, we suggest using the ratio of irradiance to the mixed layer depth as a variable for the parameterization of nitrogen fixation in biogeochemical models. The C org production and thus the nitrogen fixation rates remained almost constant as long as continuous rising temperatures indicated favorable irradiation conditions. A limitation of the rates by phosphate or any other factor could not be detected. Based on the C/N ratio of particulate organic matter during a cyanobacteria bloom, the C org production was used to estimate the mid-summer nitrogen fixation. 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issn	1879-1573 0924-7963
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source	Elsevier:Jisc Collections:Elsevier Read and Publish Agreement 2022-2024:Freedom Collection (Reading list)
subjects	Baltic Sea CO2 partial pressure Nitrogen fixation Phosphorus Solar radiation
title	Control of the mid-summer net community production and nitrogen fixation in the central Baltic Sea: An approach based on pCO 2 measurements on a cargo ship
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